" R& E, x8 E0 ^: P# l[attach]7431[/attach], F* @/ u- F ~5 e
* c: X; c0 h3 \& E, Z
封面故事——Alternative splicing allows a single gene to produce more than one protein, and shapes how genetic information controls cellular processes. The Frey and Blencowe labs at the University of Toronto have combined forces to develop a 'splicing code' that predicts how hundreds of RNA features work together to regulate tissue-dependent alternative splicing for thousands of exons (see News page 16). The code has been used to predict how alternative splicing acts in various developmental and neurological processes, and the code has been incorporated into a web tool that allows researchers to scan uncharacterized exon and intron sequences to predict tissue-dependent splicing patterns. Cover graphic by Brendan Frey. ! b, g) F* I5 c$ b7 M* \ ) c z* D3 O% ]2 j& }: q附件内容来自佛骨舍利,我把它拿到这里来与大家分享,希望与大家喜欢。实际上是佛骨舍利与我们分享他的资料哈!# P) A% @6 C7 h1 V; K' b
非常感谢 佛骨舍利 的乐于分享精神!+ _+ W+ Q& p' E/ x& ^+ M